Abstract

A three-beam heterodyne polarimeter has been built to diagnose the PI-1 plasma injector at General Fusion, Inc. The polarimetermeasuresplasma density and Faraday rotation, which can provide estimates of magnetic field magnitude and direction. Two important calibration steps are required for the polarimeter to produce reasonable Faraday rotation signals. Beampolarization ellipticity must be measured to ensure there is a linear Faraday rotation response. In addition, the two beams travelling through the plasma must be collinear to reduce error due to differences in plasma density. Once calibrated, the Faraday rotation signals are in much better agreement with other diagnostics. For a null signal, the Faraday rotationmeasurement noise floor is 0.1° at 0.5 MHz bandwidth. Comparing preliminary spheromakFaraday rotationmeasurements to a model, the maximum error is about 0.3° at 0.5 MHz bandwidth, which is primarily due to electrical noise during the injector's capacitor discharge and limitations of the model. At a bandwidth of 0.5 MHz, the polarimeter has an axial resolution between 6 cm and 30 cm depending on the speed of the spheromak, which varies between 30 km/s and 150 km/s. The spheromak length ranges from 0.75 m to 2 m. Additional polarimeter chords will be added in future upgrades.

Received 16 July 2013Accepted 12 August 2013Published online 26 August 2013

Acknowledgments:

The authors acknowledge the Natural Sciences and Engineering Research Council of Canada and General Fusion, Inc., for financial support. Thanks to Roger J. Smith (University of Washington) and David Brower (UCLA) for helpful discussions.